EP2323140B1 - Position indicator, position detecting device and coil winding method - Google Patents
Position indicator, position detecting device and coil winding method Download PDFInfo
- Publication number
- EP2323140B1 EP2323140B1 EP10191525.4A EP10191525A EP2323140B1 EP 2323140 B1 EP2323140 B1 EP 2323140B1 EP 10191525 A EP10191525 A EP 10191525A EP 2323140 B1 EP2323140 B1 EP 2323140B1
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- EP
- European Patent Office
- Prior art keywords
- coil
- conductive wire
- position indicator
- wound
- winding
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q7/00—Loop antennas with a substantially uniform current distribution around the loop and having a directional radiation pattern in a plane perpendicular to the plane of the loop
- H01Q7/06—Loop antennas with a substantially uniform current distribution around the loop and having a directional radiation pattern in a plane perpendicular to the plane of the loop with core of ferromagnetic material
- H01Q7/08—Ferrite rod or like elongated core
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/033—Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor
- G06F3/0354—Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor with detection of 2D relative movements between the device, or an operating part thereof, and a plane or surface, e.g. 2D mice, trackballs, pens or pucks
- G06F3/03545—Pens or stylus
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/046—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means by electromagnetic means
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F41/00—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
- H01F41/02—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets
- H01F41/04—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets for manufacturing coils
- H01F41/06—Coil winding
- H01F41/064—Winding non-flat conductive wires, e.g. rods, cables or cords
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F41/00—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
- H01F41/02—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets
- H01F41/04—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets for manufacturing coils
- H01F41/06—Coil winding
- H01F41/071—Winding coils of special form
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F5/00—Coils
Definitions
- the present invention relates in general to a position indicator, a position detecting device, and a coil winding method.
- Patent Document 1 Japanese Patent Laid-Open Nos. Sho 63-70326 (corresponding to EP 0 587 201 A1 ) and Hei 7-175572 , respectively, have been known as ones each relating to a position detecting device for detecting an indicated position in accordance with an electromagnetic induction method.
- Patent Document 1 corresponding to EP 0 587 201 A1
- Hei 7-175572 respectively, have been known as ones each relating to a position detecting device for detecting an indicated position in accordance with an electromagnetic induction method.
- These techniques are such that a coil is provided in a position indicator and a sensor coil is provided in the position detecting device, and under this condition, a signal based on an electromagnetic wave is transmitted and received between the position detecting device and the position indicator, whereby the position detecting device detects the indicated position.
- Patent Document 2 Japanese Patent Laid-Open No. 2007-257359
- Patent Document 3 a construction of the position indicator used in the technique disclosed in Patent Document 2 is described in Japanese Patent Laid-Open No. 2007-164356 (hereinafter referred to as Patent Document 3) (corresponding to EP 1 806 647 A2 ).
- Patent Document 3 Japanese Patent Laid-Open No. 2007-164356 (hereinafter referred to as Patent Document 3) (corresponding to EP 1 806 647 A2 ).
- Each of the techniques disclosed in Patent Documents 2 and 3, respectively, is such that a power source is provided in the position indicator and an AC magnetic field is generated from a coil, and thus an indicated position on a liquid crystal panel is detected in accordance with an electromagnetic induction method between the AC magnetic field and the sensor coil made of a transparent conductive material (ITO film) and disposed on a front surface of the liquid crystal panel.
- ITO film transparent conductive material
- Document EP 1 643 351 A2 discloses a coordinate indicator used for an input device of electronic equipment, in which a conducting wire is wound around a tube to form a coil.
- the coil is either a one layer coil or a double layer coil, in which later case the conducting wire is folded back at its one end so as to form the doubly coiled part, which partly overlaps on the surface of the wound wire.
- the present invention relates to a position indicator according to independent claim 1 and to a coil winding method for manufacturing a coil for an oscillating circuit of a position detecting device according to independent claim 9. Preferred embodiments are described in dependent claims 2 to 8 and 10 to 12.
- the position detecting device disclosed in Patent Document 2 the magnetic field component generated by the coil of the position indicator is detected by the sensor coil disposed on the front surface of the liquid crystal panel.
- FIG. 10 shows an example of a coil used in an existing position indicator disclosed in Patent Document 2 or the like.
- the coil 101 used in an existing position indicator, as shown in FIG. 10 is made by winding a conductive wire 103 around a ferrite core 102.
- the AC magnetic field transmitted from the coil 101 is detected by a sensor coil disposed in parallel relation to a tablet, thereby obtaining the indicated position.
- the AC voltage is applied to the coil 101, whereby the entire coil 101 acts as an electrode, thus generating an AC electric field.
- induced voltages due to the electrostatic induction are generated in each of plural lines of the sensor coil of the tablet.
- the present invention is directed to providing a position indicator for use on a sensor coil having a high electrical resistance, whose indicated position is detected in accordance with an electromagnetic induction method, wherein an influence of the electrostatic induction between the position indicator and the sensor coil is excluded to thereby allow accurate detection of the indicated position.
- the present invention also provides a position detecting device used with such a position indicator, and a coil winding method.
- the voltages which are opposite in polarity to each other and which have approximately the same potential are applied to the wound conductive wires that are adjacent to each other. For this reason, the electric fields generated from the conductive wires adjacent to each other cancel each other, and thus it is possible to suppress the radiation of the electric field from the coil.
- the sensor coil of the tablet can detect only the signal generated by the electromagnetic induction without being influenced by the electrostatic induction between the sensor coil and the position indicator. Thus, it is possible to precisely obtain the coordinates of the position indicator on the tablet.
- FIG. 1 shows a coil winding wire of a position indicator of a first embodiment of the present invention.
- a conductive wire 3 that forms a coil 1 has a predetermined length.
- a predetermined portion of the conductive wire 3 is determined as a middle point 4, and both end portions of the conductive wire 3 with respect to the middle point 4 are designated as a first end portion 5a and a second end portion 5b, respectively.
- a part of the conductive wire 3 extending from the middle point 4 to the first end portion 5a is designated as a first conductive wire 3a
- a part of the conductive wire 3 extending from the middle point 4 to the second end portion 5b is designated as a second conductive wire 3b.
- the concept about how to wind the coil it is referred to the chapter ⁇ Method of Winding a Conducive Wire>, hereinafter.
- FIG. 2 shows a position indicator 10 having the coil 1 according to the first embodiment of the present invention.
- the position indicator 10 having the coil 1 includes a pen tip portion 10a, a pen holder 10b, the coil 1, a pen pressure sensor 12 for detecting a pen pressure applied to the pen tip portion 10a, and an oscillation circuit 13 (which cooperates with and functionally includes the coil 1).
- the coil 1 of the first embodiment is formed by using a special method of winding (knitting) the conductive wire 3 (refer to FIG. 7 , which will be described later) around the circumference of a ferrite core 2, and a winding process will be described later.
- the coil 1 and the ferrite core 2 are disposed close to the pen tip portion 10a.
- the pen tip portion 10a is provided at a distal end of a rod 11, which is inserted through a hole formed through the tip side of the pen holder 10b.
- the coil 1 is structured by winding a litz wire around the ferrite core 2, which includes a hole through which the rod 11 is slidably inserted.
- the coil 1 is disposed on the tip side of the pen holder 10b.
- the oscillation circuit 13, functionally including and cooperating with the coil 1, generates an AC signal, and transmits a position indicating signal to a tablet 31 (refer to FIG. 8 , which will be described later) via the coil 1.
- a battery may be used as a power source built in the position indicator 10.
- the power source which is charged by an excitation signal supplied thereto from the tablet 31 may also be used as the power source built in the position indicator 10.
- the pen pressure sensor 12 is composed of a variable capacitance capacitor, an example of which is disclosed in Japanese Patent Laid-Open No. Hei 5-275283 .
- an oscillation frequency may be changed in accordance with the pen pressure.
- the pen pressure may be converted into a binary code, and a signal generated in the coil 1 may be modulated by using the binary code.
- FIG. 3 is a circuit diagram of a Colpitts type oscillation circuit used in the position indicator 10 having the coil 1 of the first embodiment.
- the oscillation circuit 13 of the position indicator 10 having the coil 1 of the first embodiment includes two capacitors 15a and 15b connected in series with each other, and the coil 1 connected in parallel with the two capacitors 15a and 15b, and is configured in the form of the well-known Colpitts type oscillation circuit.
- the two capacitors 15a and 15b are equal in electrostatic capacitance to each other, and a middle point to which each of the capacitors 15a and 15b is connected is connected to a predetermined fixed potential (a minus terminal of a power source (GND) in this case).
- the voltages generated in the coil 1 are as shown in FIG. 4 .
- the plus-side voltage and the minus-side voltage are alternately generated in each adjacent two winding wires of the coil 1, the electric fields radiated by each adjacent two winding wires cancel each other, to thus exert no influence to the surrounding. This is a feature of the present invention.
- the position indicator 10 includes the coil 1 in which the first and second conductive wires 3a and 3b are wound, from the starting end side and the terminating end side of the conductive wire 3, respectively, so as to be alternately adjacent to each other, per each turn. Therefore, the electric fields radiated from each adjacent two portions of the conductive wire 3 of the coil 1 cancel each other, to thereby reduce the radiation of the electric field from the coil 1.
- the Colpitts type oscillation circuit is used in the position indicator 10 having the coil 1 of the first embodiment, the signals which have the same amplitude and which are 180° out-of-phase with each other are generated at both ends of the conductive wire 3, respectively. Therefore, since the electric fields radiated by each adjacent two portions of the conductive wire 3 of the coil 1 fully cancel each other, it is possible to realize the position indicator which radiates very little electric field.
- the tablet 31 is free from the influence of the electrostatic induction between the positive indicator 10 and the sensor coil, and thus can precisely detect the indicated position indicated by the position indicator 10 on the sensor coil having a high electrical resistance.
- FIG. 5 is a view showing a coil winding wire of the coil 21.
- the coil 21 of the second embodiment is different from the coil 1 of the first embodiment in that in the coil 21, the middle point terminal 22 is drawn out from the middle point 4 of the conductive wire 3.
- FIG. 6 is a circuit diagram of a Hartley type oscillation circuit used in the position indicator 10 having the coil 21 of the second embodiment.
- one capacitor 23 is connected in parallel with the coil 21, to thereby form the well-known Hartley type oscillation circuit.
- a middle point terminal 22 connected to the middle point 4 of the coil 21 is connected to a predetermined fixed potential (a plus terminal of the power source (VCC) in this case).
- signals which have the same amplitude, with respect to the VCC potential as a reference, and which are 180° out-of-phase with each other are generated at both ends of the coil 21 or, more specifically, at both ends of the conductive wire 3 that forms the coil 21, respectively.
- the plus-side voltage and the minus-side voltage are alternately generated in each adjacent two winding wires of the coil 21.
- the position indicator 10 includes the coil 21 in which the first and second conductive wires 3a and 3b are wound, from the starting end side and the terminating end side of the conductive wire 3, respectively, so as to be alternately adjacent to each other, per each turn. Therefore, the electric fields radiated from each adjacent two portions of the conductive wire 3 of the coil 21 cancel each other, to thereby reduce the radiation of the electric field from the coil 21.
- the Hartley type oscillation circuit is used in the position indicator 10 having the coil 21 of the second embodiment, the signals which have the same amplitude, with respect to the potential at the middle point 22 as a reference, and which are 180° out-of-phase with each other are generated at both ends of the conductive wire 3, respectively. Thus, it is possible to realize the position indicator which radiates very little electric field because the electric fields radiated from each adjacent two portions of the conductive wire 3 of the coil 21 fully cancel each other.
- a resulting effect is that even when the sensor coil having a high electrical resistance is used in the tablet 31, the influence of the electrostatic induction between the position indicator 10 and the sensor coil is removed, and thus it is possible to precisely detect the indicated position of the position indicator 10 on the tablet 31.
- FIGS. 7A to 7F are views explaining processes for manufacturing the coil 1 of the first embodiment shown in FIG. 1 .
- FIG. 7A shows a construction of the conductive wire 3.
- the conductive wire 3 in this case has a predetermined length, and both end portions of the conductive wire 3 with respect to the middle point 4 are designated as the first end portion 5a and the second end portion 5b, respectively. Also, a part of the conductive wire 3 extending from the middle point 4 to the first end portion 5a is designated as the first conductive wire 3a, and a part of the conductive wire 3 extending from the middle point 4 to the second end portion 5b is designated as the second conductive wire 3b.
- FIG. 7B shows a state in which the ferrite core 2 is placed over the middle point 4 of the conductive wire 3.
- the conductive wire 3 starts to be wound around the ferrite core 2 in a state shown in FIG. 7B .
- FIG. 7C shows a state in which the first conductive wire 3a is wound around the ferrite core 2 by a half turn. At this time, the first conductive wire 3a is wound along the circumference of the ferrite core 2 by a half turn.
- FIG. 7D shows a state in which the second conductive wire 3b is wound around the ferrite core 2 by a half turn. At this time, the second conductive wire 3b is wound along the circumference of the ferrite core 2 by a half turn. Also, the second conductive wire 3b is placed on top of the first conductive wire 3a which has already been wound around the ferrite core 2 by a half turn.
- FIG. 7E shows a state in which the first conductive wire 3 a is wound around the ferrite core 2 by one more turn. At this time, the first conductive wire 3a is wound around the circumference of the ferrite core 2 by one turn so as to be adjacent to the second conductive wire 3b wound around the ferrite core 2 to be placed on top of the second conductive wire 3b.
- the second conductive wire 3b is placed on top of the first conductive wire 3 a.
- FIG. 7F shows the completed coil 1.
- the first end portion 5a and the second end portion 5b of the conductive wire 3 are taken and used as both ends of the coil 1.
- the conductive wire 3 is wound around the ferrite core 2 in the manner as described above, thereby forming the coil 1.
- the ferrite core 2 is used as the core of the coil 1, 21, any other suitable material may be used instead of using the ferrite core 2.
- the fixing portion (provided by the ferrite core 2, for example) may be removed from the coil 1, 21, thereby obtaining a hollow core coil.
- the NPN bipolar transistor is used as the constituent element composing the oscillation circuit 13, the present invention is by no means limited thereto.
- a single wire may be used as the conductive wire 3 which is wound around the ferrite core 2 in order to obtain the coil 1, 21, or a plurality of fine conductive wires may be bundled for use in formation of the coil 1, 21.
- first conductive wire 3 a and the second conductive wire 3b are alternately wound around the ferrite core 2 so as to be adjacent to each other per each turn
- first conductive wire 3a and the second conductive wire 3b may be alternately wound around the ferrite core 2 so as to be adjacent to each other per every two turns or more turns.
- FIG. 8 shows a position detecting device (hereinafter referred to as "a pen tablet") 30, according to a third embodiment of the present invention, including the position indicator 10 having the construction and operation as described above.
- a pen tablet a position detecting device
- the pen tablet 30 has the pen-shaped position indicator 10, and a flat plate-like tablet 31.
- the pen-shaped position indicator 10 has the pen tip portion 10a, and the coil 1 is accommodated in the pen tip portion 10a.
- the tablet 31 is connected to an external computer apparatus (not shown), and has a function of detecting an indicated position indicated by the position indicator 10.
- the position indicator 10 is used on a position detection area 31a set on an upper surface of the tablet 31.
- the tablet 31 can detect a coordinate position which is indicated on the position detection area 31a by the position indicator 10.
- Information regarding the indicated position indicated by the position indicator 10 and detected by the tablet 31 is outputted to the external computer apparatus.
- the external computer apparatus displays a drawing or the like corresponding to the coordinates inputted thereto from the tablet 31 on a screen of a liquid crystal display device (not shown) connected thereto.
- FIG. 9 is a block diagram showing a configuration of the tablet 31.
- the tablet 31 includes a plurality of loop coils 41.
- a plurality of loop coils 41 are composed of loop coils X1 to X20 which are disposed in an X-axis direction approximately in parallel with one another (hereinafter referred to as "X-axis loop coils"), and loop coils Y1 to Y20 which are disposed in a Y-axis direction approximately in parallel with one another (hereinafter referred to as "Y-axis loop coils").
- the dimensions and pitch of the plurality of loop coils 41, of the position detection area 31a, composed of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20, are determined according to the size of the tablet 31.
- the plurality of loop coils 41 receive the position indicating signal representing the indicated position indicated by the position indicator 10 from the position indicator 10 placed on the position detection area 31a.
- a plurality of loop coils 41 composed of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 are connected to a selecting circuit 42 for selecting a set of output terminals of the X-axis loop coil and the Y-axis loop coil which correspond to the indicated position on the position detection area 31a.
- a set of output terminals of the X-axis loop coil and the Y-axis loop coil which is selected by the selecting circuit 42 is connected to an amplifying circuit 43.
- the amplifying circuit 43 is connected to a band-pass filter 44 having a frequency f 0 , which is the frequency of the signal from the position indicator 10, as a central frequency.
- the band-pass filter 44 is connected to a detector circuit 45.
- the detector circuit 45 is connected to a sample-and-hold circuit 46.
- a voltage held by the sample-and-hold circuit 46 is converted from an analog signal into a digital signal in an A/D conversion circuit 47.
- the digital signal outputted from the A/D conversion circuit 47 is inputted to a CPU 48.
- the CPU 48 sends control signals to the selecting circuit 42, the sample-and-hold circuit 46, and the A/D conversion circuit 47, respectively, and obtains the indicated position indicated by the position indicator 10 in the position detection area 31a in accordance with the position indicating signal received by corresponding ones of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 that form the loop coils 41.
- the CPU 48 when there is no position indicator 10 on the tablet 31, the CPU 48 carries out the scanning for the entire tablet 31. Specifically, while the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 are successively selected in the order from X1 to X20 and in the order from Y1 to Y20, respectively, on a one-by-one basis by the selecting circuit 22, the CPU 48 detects the presence or absence of, and the level of, each of the output signals from the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20, which are selected on the one-by-one basis, through the amplifying circuit 43, the detector circuit 45, the sample-and-hold circuit 46, and the A/D conversion circuit 47.
- the signals are detected from the corresponding ones of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 in the vicinity of the position indicator 10.
- the operation of the CPU 48 proceeds to the scanning of only several (about 5 to about 7) loop coils 41, which is centered around the loop coil from which the strongest signal was detected, with respect to both the X-axis loop coils and the Y-axis loop coils, respectively.
- the operation of the CPU 48 described above is carried out for both the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 forming the loop coils 41, and thus the results of detection of the levels of the signals from the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 show a two-dimensional distribution.
- the position of the position indicator 10 on the pen tablet 30 is detected in accordance with the distribution of the levels of the signals.
- a position detecting device includes: the position indicator 10 including the coil 1 for radiating the magnetic field for carrying out the position indication; and the tablet 31 including the position detection area 31a for receiving position indication made by the position indicator 10.
- the tablet 31 serves to detect the position indicated by the position indicator 10 on the position detection area 31a in accordance with the magnetic field emitted from the position indicator 10.
- the coil 1 includes: the first conductive wire 3a wound from a distal end portion thereof to a proximal end portion thereof in a predetermined rotational direction; and the second conductive wire 3b wound from a proximal end portion thereof to a distal end portion thereof in the predetermined rotational direction.
- the position indicator 10 and the coil winding method of the present invention are embodied as described in the coils 1 and 21 of the first and second embodiments of the present invention.
- the present invention is by no means limited to the embodiments described above and shown in the figures, and thus various kinds of changes can be made without departing from the subject matter of the present invention.
- the oscillation circuit is by no means limited to the Colpitts type oscillation circuit and the Hartley type oscillation circuit. It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and alterations are possible depending on design requirements and other factors insofar as they are within the scope of the appended claims.
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- Human Computer Interaction (AREA)
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- Manufacturing & Machinery (AREA)
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- Measurement Of Length, Angles, Or The Like Using Electric Or Magnetic Means (AREA)
- Coil Winding Methods And Apparatuses (AREA)
- Coils Or Transformers For Communication (AREA)
Description
- The present invention relates in general to a position indicator, a position detecting device, and a coil winding method.
- Heretofore, the techniques disclosed in Japanese Patent Laid-Open Nos.
Sho 63-70326 EP 0 587 201 A1 ) andHei 7-175572
In recent years, with the advancement in practical realization of a liquid crystal display device, it has become desirable to have a position detecting device in which the position detecting device is combined with the liquid crystal display device, such that a position at which the drawing is desired to be carried out is directly indicated with a pen, thereby making it possible to input drawing information or the like. A position detecting device disclosed in Japanese Patent Laid-Open No.2007-257359 - In addition, a construction of the position indicator used in the technique disclosed in
Patent Document 2 is described in Japanese Patent Laid-Open No.2007-164356 EP 1 806 647 A2Patent Documents
Document EP 1 643 351 A2 discloses a coordinate indicator used for an input device of electronic equipment, in which a conducting wire is wound around a tube to form a coil. The coil is either a one layer coil or a double layer coil, in which later case the conducting wire is folded back at its one end so as to form the doubly coiled part, which partly overlaps on the surface of the wound wire. - The present invention relates to a position indicator according to
independent claim 1 and to a coil winding method for manufacturing a coil for an oscillating circuit of a position detecting device according to independent claim 9. Preferred embodiments are described independent claims 2 to 8 and 10 to 12.
With the position detecting device disclosed inPatent Document 2, the magnetic field component generated by the coil of the position indicator is detected by the sensor coil disposed on the front surface of the liquid crystal panel.FIG. 10 shows an example of a coil used in an existing position indicator disclosed inPatent Document 2 or the like. Thecoil 101 used in an existing position indicator, as shown inFIG. 10 , is made by winding aconductive wire 103 around aferrite core 102. With the position detecting device, the AC magnetic field transmitted from thecoil 101 is detected by a sensor coil disposed in parallel relation to a tablet, thereby obtaining the indicated position.
However, with the existing position indicator, the AC voltage is applied to thecoil 101, whereby theentire coil 101 acts as an electrode, thus generating an AC electric field. Based on the generated AC electric field, induced voltages due to the electrostatic induction are generated in each of plural lines of the sensor coil of the tablet. - At this time, when a resistance value of the sensor coil is sufficiently low, the voltages induced in the respective lines become approximately uniform. For this reason, an influence of the electrostatic induction between the position indicator and the sensor coil can be canceled by using a differential amplifier or the like. However, when the ITO film is used in the sensor coil for the purpose of realizing a transparent sensor, the resistance value of the sensor coil becomes as high as several kilo ohms to several tens of kilo ohms.
In this case, since the electrostatic induced voltages generated in the respective lines are different from one another depending on a distance from the coil of the position indicator, this difference in electrostatic induced voltages exerts an influence on a detected value when the AC magnetic field described above is detected by the sensor coil. As a result, it is difficult to precisely detect the indicated position indicated by the position indicator.
The present invention is directed to providing a position indicator for use on a sensor coil having a high electrical resistance, whose indicated position is detected in accordance with an electromagnetic induction method, wherein an influence of the electrostatic induction between the position indicator and the sensor coil is excluded to thereby allow accurate detection of the indicated position. In accordance with other aspects, the present invention also provides a position detecting device used with such a position indicator, and a coil winding method. - According to the present invention, the voltages which are opposite in polarity to each other and which have approximately the same potential are applied to the wound conductive wires that are adjacent to each other. For this reason, the electric fields generated from the conductive wires adjacent to each other cancel each other, and thus it is possible to suppress the radiation of the electric field from the coil.
In addition, when the coil is used in the position indicator, the sensor coil of the tablet can detect only the signal generated by the electromagnetic induction without being influenced by the electrostatic induction between the sensor coil and the position indicator. Thus, it is possible to precisely obtain the coordinates of the position indicator on the tablet. -
-
FIG. 1 is an external view showing a construction of a coil provided in a position indicator according to a first embodiment of the present invention; -
FIG. 2 is a partially cut away view showing an internal construction of a position indicator having the coil according to the first embodiment of the present invention; -
FIG. 3 is a circuit diagram showing a Colpitts type oscillation circuit used in the position indicator having the coil of the first embodiment; -
FIG. 4 is an explanatory view showing the basic principle of the coil provided in a position indicator of the present invention; -
FIG. 5 is an external view showing a coil provided in a position indicator according to a second embodiment of the present invention; -
FIG. 6 is a circuit diagram showing a Hartley type oscillation circuit used in a position indicator having the coil of the second embodiment; -
FIGS. 7A to 7F are views explaining a method of winding the provided in a position indicator according to the first embodiment of the present invention; -
FIG. 8 is a perspective view showing an external appearance of a position detecting device (pen tablet) according to a third embodiment of the present invention; -
FIG. 9 is a block diagram showing an internal configuration of the pen tablet shown inFIG. 9 ; and -
FIG. 10 is a view showing an external appearance of an existing coil. - The preferred embodiments of the present invention will be described in detail hereinafter with reference to the accompanying drawings.
- A first embodiment of the present invention will now be described.
-
FIG. 1 shows a coil winding wire of a position indicator of a first embodiment of the present invention. Aconductive wire 3 that forms acoil 1 has a predetermined length. A predetermined portion of theconductive wire 3 is determined as amiddle point 4, and both end portions of theconductive wire 3 with respect to themiddle point 4 are designated as afirst end portion 5a and asecond end portion 5b, respectively. Also, a part of theconductive wire 3 extending from themiddle point 4 to thefirst end portion 5a is designated as a firstconductive wire 3a, and a part of theconductive wire 3 extending from themiddle point 4 to thesecond end portion 5b is designated as a secondconductive wire 3b.
With regard to the concept about how to wind the coil, it is referred to the chapter <Method of Winding a Conducive Wire>, hereinafter. -
FIG. 2 shows aposition indicator 10 having thecoil 1 according to the first embodiment of the present invention. - The
position indicator 10 having thecoil 1 according to the first embodiment of the present invention includes apen tip portion 10a, apen holder 10b, thecoil 1, apen pressure sensor 12 for detecting a pen pressure applied to thepen tip portion 10a, and an oscillation circuit 13 (which cooperates with and functionally includes the coil 1). - The
coil 1 of the first embodiment is formed by using a special method of winding (knitting) the conductive wire 3 (refer toFIG. 7 , which will be described later) around the circumference of aferrite core 2, and a winding process will be described later. Thecoil 1 and theferrite core 2 are disposed close to thepen tip portion 10a. Thepen tip portion 10a is provided at a distal end of arod 11, which is inserted through a hole formed through the tip side of thepen holder 10b. Thecoil 1 is structured by winding a litz wire around theferrite core 2, which includes a hole through which therod 11 is slidably inserted. Thecoil 1 is disposed on the tip side of thepen holder 10b. - The
oscillation circuit 13, functionally including and cooperating with thecoil 1, generates an AC signal, and transmits a position indicating signal to a tablet 31 (refer toFIG. 8 , which will be described later) via thecoil 1. A battery may be used as a power source built in theposition indicator 10. Alternatively, as described inPatent Document 2, the power source which is charged by an excitation signal supplied thereto from thetablet 31 may also be used as the power source built in theposition indicator 10. - The
pen pressure sensor 12 is composed of a variable capacitance capacitor, an example of which is disclosed in Japanese Patent Laid-Open No.Hei 5-275283 Patent Document 1, the pen pressure may be converted into a binary code, and a signal generated in thecoil 1 may be modulated by using the binary code. -
FIG. 3 is a circuit diagram of a Colpitts type oscillation circuit used in theposition indicator 10 having thecoil 1 of the first embodiment. - The
oscillation circuit 13 of theposition indicator 10 having thecoil 1 of the first embodiment includes twocapacitors coil 1 connected in parallel with the twocapacitors capacitors capacitors coil 1 or, more specifically, both ends of theconductive wire 3 that forms thecoil 1, respectively. - At this time, the voltages generated in the
coil 1 are as shown inFIG. 4 . Specifically, since the plus-side voltage and the minus-side voltage are alternately generated in each adjacent two winding wires of thecoil 1, the electric fields radiated by each adjacent two winding wires cancel each other, to thus exert no influence to the surrounding. This is a feature of the present invention. - According to the first embodiment of the present invention described above, the
position indicator 10 includes thecoil 1 in which the first and secondconductive wires conductive wire 3, respectively, so as to be alternately adjacent to each other, per each turn. Therefore, the electric fields radiated from each adjacent two portions of theconductive wire 3 of thecoil 1 cancel each other, to thereby reduce the radiation of the electric field from thecoil 1. - In addition, since the Colpitts type oscillation circuit is used in the
position indicator 10 having thecoil 1 of the first embodiment, the signals which have the same amplitude and which are 180° out-of-phase with each other are generated at both ends of theconductive wire 3, respectively. Therefore, since the electric fields radiated by each adjacent two portions of theconductive wire 3 of thecoil 1 fully cancel each other, it is possible to realize the position indicator which radiates very little electric field. - For this reason, the
tablet 31 is free from the influence of the electrostatic induction between thepositive indicator 10 and the sensor coil, and thus can precisely detect the indicated position indicated by theposition indicator 10 on the sensor coil having a high electrical resistance. - A second embodiment of the present invention will now be described.
- In the second embodiment of the present invention, a description will be given below with respect to the case where the present invention is applied to a
coil 21 in which amiddle point terminal 22 is drawn out from themiddle point 4 of theconductive wire 3 wound around theferrite core 2. In the following description, portions corresponding to those shown inFIGS. 1 to 4 described in the first embodiment are designated by the same reference numerals, respectively, and a detailed description thereof is omitted here for the sake of simplicity. -
FIG. 5 is a view showing a coil winding wire of thecoil 21. - The
coil 21 of the second embodiment is different from thecoil 1 of the first embodiment in that in thecoil 21, themiddle point terminal 22 is drawn out from themiddle point 4 of theconductive wire 3. -
FIG. 6 is a circuit diagram of a Hartley type oscillation circuit used in theposition indicator 10 having thecoil 21 of the second embodiment. - In the
oscillation circuit 13 of theposition indicator 10 having thecoil 21 of the second embodiment, onecapacitor 23 is connected in parallel with thecoil 21, to thereby form the well-known Hartley type oscillation circuit. Amiddle point terminal 22 connected to themiddle point 4 of thecoil 21 is connected to a predetermined fixed potential (a plus terminal of the power source (VCC) in this case). - In the Hartley type oscillation circuit, signals which have the same amplitude, with respect to the VCC potential as a reference, and which are 180° out-of-phase with each other are generated at both ends of the
coil 21 or, more specifically, at both ends of theconductive wire 3 that forms thecoil 21, respectively. At this time, as shown inFIG. 4 described above, the plus-side voltage and the minus-side voltage are alternately generated in each adjacent two winding wires of thecoil 21. - In the second embodiment as well, the
position indicator 10 includes thecoil 21 in which the first and secondconductive wires conductive wire 3, respectively, so as to be alternately adjacent to each other, per each turn. Therefore, the electric fields radiated from each adjacent two portions of theconductive wire 3 of thecoil 21 cancel each other, to thereby reduce the radiation of the electric field from thecoil 21. In addition, since the Hartley type oscillation circuit is used in theposition indicator 10 having thecoil 21 of the second embodiment, the signals which have the same amplitude, with respect to the potential at themiddle point 22 as a reference, and which are 180° out-of-phase with each other are generated at both ends of theconductive wire 3, respectively. Thus, it is possible to realize the position indicator which radiates very little electric field because the electric fields radiated from each adjacent two portions of theconductive wire 3 of thecoil 21 fully cancel each other. - For this reason, a resulting effect is that even when the sensor coil having a high electrical resistance is used in the
tablet 31, the influence of the electrostatic induction between theposition indicator 10 and the sensor coil is removed, and thus it is possible to precisely detect the indicated position of theposition indicator 10 on thetablet 31. -
FIGS. 7A to 7F are views explaining processes for manufacturing thecoil 1 of the first embodiment shown inFIG. 1 . -
FIG. 7A shows a construction of theconductive wire 3. - The
conductive wire 3 in this case has a predetermined length, and both end portions of theconductive wire 3 with respect to themiddle point 4 are designated as thefirst end portion 5a and thesecond end portion 5b, respectively. Also, a part of theconductive wire 3 extending from themiddle point 4 to thefirst end portion 5a is designated as the firstconductive wire 3a, and a part of theconductive wire 3 extending from themiddle point 4 to thesecond end portion 5b is designated as the secondconductive wire 3b. -
FIG. 7B shows a state in which theferrite core 2 is placed over themiddle point 4 of theconductive wire 3. - In the process for manufacturing the
coil 1 in this case, theconductive wire 3 starts to be wound around theferrite core 2 in a state shown inFIG. 7B . -
FIG. 7C shows a state in which the firstconductive wire 3a is wound around theferrite core 2 by a half turn. At this time, the firstconductive wire 3a is wound along the circumference of theferrite core 2 by a half turn. -
FIG. 7D shows a state in which the secondconductive wire 3b is wound around theferrite core 2 by a half turn. At this time, the secondconductive wire 3b is wound along the circumference of theferrite core 2 by a half turn. Also, the secondconductive wire 3b is placed on top of the firstconductive wire 3a which has already been wound around theferrite core 2 by a half turn. -
FIG. 7E shows a state in which the firstconductive wire 3 a is wound around theferrite core 2 by one more turn. At this time, the firstconductive wire 3a is wound around the circumference of theferrite core 2 by one turn so as to be adjacent to the secondconductive wire 3b wound around theferrite core 2 to be placed on top of the secondconductive wire 3b. - In addition, although not illustrated, after the second
conductive wire 3b is disposed along the circumference of theferrite core 2 to be also wound around theferrite core 2 so as to be adjacent to the firstconductive wire 3a wound by one turn, the secondconductive wire 3b is placed on top of the firstconductive wire 3 a. -
FIG. 7F shows the completedcoil 1. - After the first
conductive wire 3a and the secondconductive wire 3b are repetitively wound around theferrite core 2 by a predetermined number of turns, thefirst end portion 5a and thesecond end portion 5b of theconductive wire 3 are taken and used as both ends of thecoil 1. - The
conductive wire 3 is wound around theferrite core 2 in the manner as described above, thereby forming thecoil 1. - It is noted that although in the first and second embodiments described above, the
ferrite core 2 is used as the core of thecoil ferrite core 2. Further alternatively, the fixing portion (provided by theferrite core 2, for example) may be removed from thecoil oscillation circuit 13, the present invention is by no means limited thereto. In addition, a single wire may be used as theconductive wire 3 which is wound around theferrite core 2 in order to obtain thecoil coil coil conductive wire 3 a and the secondconductive wire 3b are alternately wound around theferrite core 2 so as to be adjacent to each other per each turn, alternatively, the firstconductive wire 3a and the secondconductive wire 3b may be alternately wound around theferrite core 2 so as to be adjacent to each other per every two turns or more turns. -
FIG. 8 shows a position detecting device (hereinafter referred to as "a pen tablet") 30, according to a third embodiment of the present invention, including theposition indicator 10 having the construction and operation as described above. - The
pen tablet 30 has the pen-shapedposition indicator 10, and a flat plate-like tablet 31. The pen-shapedposition indicator 10 has thepen tip portion 10a, and thecoil 1 is accommodated in thepen tip portion 10a. - The
tablet 31 is connected to an external computer apparatus (not shown), and has a function of detecting an indicated position indicated by theposition indicator 10. Theposition indicator 10 is used on aposition detection area 31a set on an upper surface of thetablet 31. Thetablet 31 can detect a coordinate position which is indicated on theposition detection area 31a by theposition indicator 10. Information regarding the indicated position indicated by theposition indicator 10 and detected by thetablet 31 is outputted to the external computer apparatus. The external computer apparatus displays a drawing or the like corresponding to the coordinates inputted thereto from thetablet 31 on a screen of a liquid crystal display device (not shown) connected thereto. -
FIG. 9 is a block diagram showing a configuration of thetablet 31. - The
tablet 31 includes a plurality of loop coils 41. In this case, a plurality of loop coils 41 are composed of loop coils X1 to X20 which are disposed in an X-axis direction approximately in parallel with one another (hereinafter referred to as "X-axis loop coils"), and loop coils Y1 to Y20 which are disposed in a Y-axis direction approximately in parallel with one another (hereinafter referred to as "Y-axis loop coils"). The dimensions and pitch of the plurality of loop coils 41, of theposition detection area 31a, composed of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20, are determined according to the size of thetablet 31. The plurality of loop coils 41 receive the position indicating signal representing the indicated position indicated by theposition indicator 10 from theposition indicator 10 placed on theposition detection area 31a. A plurality of loop coils 41 composed of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 are connected to a selectingcircuit 42 for selecting a set of output terminals of the X-axis loop coil and the Y-axis loop coil which correspond to the indicated position on theposition detection area 31a. - A set of output terminals of the X-axis loop coil and the Y-axis loop coil which is selected by the selecting
circuit 42 is connected to an amplifyingcircuit 43. The amplifyingcircuit 43 is connected to a band-pass filter 44 having a frequency f0, which is the frequency of the signal from theposition indicator 10, as a central frequency. The band-pass filter 44 is connected to adetector circuit 45. Thedetector circuit 45 is connected to a sample-and-hold circuit 46. A voltage held by the sample-and-hold circuit 46 is converted from an analog signal into a digital signal in an A/D conversion circuit 47. The digital signal outputted from the A/D conversion circuit 47 is inputted to aCPU 48. - The
CPU 48 sends control signals to the selectingcircuit 42, the sample-and-hold circuit 46, and the A/D conversion circuit 47, respectively, and obtains the indicated position indicated by theposition indicator 10 in theposition detection area 31a in accordance with the position indicating signal received by corresponding ones of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 that form the loop coils 41. - With regard to an operation of the
CPU 48, when there is noposition indicator 10 on thetablet 31, theCPU 48 carries out the scanning for theentire tablet 31. Specifically, while the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 are successively selected in the order from X1 to X20 and in the order from Y1 to Y20, respectively, on a one-by-one basis by the selectingcircuit 22, theCPU 48 detects the presence or absence of, and the level of, each of the output signals from the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20, which are selected on the one-by-one basis, through the amplifyingcircuit 43, thedetector circuit 45, the sample-and-hold circuit 46, and the A/D conversion circuit 47. - When the
position indicator 10 is placed within theposition detection area 31a by a user, the signals are detected from the corresponding ones of the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 in the vicinity of theposition indicator 10. When the signals are detected from the corresponding ones of the X-axis loop coils and the Y-axis loop coils that form the loop coils 41, the operation of theCPU 48 proceeds to the scanning of only several (about 5 to about 7) loop coils 41, which is centered around the loop coil from which the strongest signal was detected, with respect to both the X-axis loop coils and the Y-axis loop coils, respectively. - The operation of the
CPU 48 described above is carried out for both the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 forming the loop coils 41, and thus the results of detection of the levels of the signals from the X-axis loop coils X1 to X20 and the Y-axis loop coils Y1 to Y20 show a two-dimensional distribution. The position of theposition indicator 10 on thepen tablet 30 is detected in accordance with the distribution of the levels of the signals. - In addition, a position detecting device according to a fourth embodiment of the present invention includes: the
position indicator 10 including thecoil 1 for radiating the magnetic field for carrying out the position indication; and thetablet 31 including theposition detection area 31a for receiving position indication made by theposition indicator 10. In this case, thetablet 31 serves to detect the position indicated by theposition indicator 10 on theposition detection area 31a in accordance with the magnetic field emitted from theposition indicator 10. Thecoil 1 includes: the firstconductive wire 3a wound from a distal end portion thereof to a proximal end portion thereof in a predetermined rotational direction; and the secondconductive wire 3b wound from a proximal end portion thereof to a distal end portion thereof in the predetermined rotational direction.
It is noted that theposition indicator 10 and the coil winding method of the present invention are embodied as described in thecoils
The present invention is by no means limited to the embodiments described above and shown in the figures, and thus various kinds of changes can be made without departing from the subject matter of the present invention. For example, the oscillation circuit is by no means limited to the Colpitts type oscillation circuit and the Hartley type oscillation circuit.
It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and alterations are possible depending on design requirements and other factors insofar as they are within the scope of the appended claims.
Claims (12)
- A position indicator (10) comprising:an oscillation circuit (13) configured to transmit a position indicating signal to indicate a position,the oscillation circuit (13) including a coil (1, 21),said coil (1, 21), comprising:a first conductive wire (3a) wound from a distal end portion of said coil (1, 21) to a proximal end portion of said coil (1, 21) in a predetermined rotational direction; anda second conductive wire (3b) wound from said proximal end portion of said coil (1, 21) to said distal end portion of said coil (1, 21) in the predetermined rotational direction, whereinsaid first conductive wire (3a) and said second conductive wire (3b) are connected to each other at the proximal end portion of said coil (1, 21), andsaid wound first conductive wire (3a) and said wound second conductive wire (3b) are disposed alternately adjacent to each other,wherein said coil (1) has a rod-like shape, andwherein in said coil (1, 21), the first and second conductive wires (3a, 3b) are wound around a circumference of a magnetic material (2) to form a single layer coil.
- The position indicator (10) according to claim 1 , wherein said wound first conductive wire (3a) and said wound second conductive wire (3b) are disposed alternately per every turn.
- The position indicator (10) according to claim 1 , wherein said wound first conductive wire (3a) and said wound second conductive wire (3b) are disposed alternately per every two or more turns.
- The position indicator (10) according to one of the preceding claims, wherein said oscillation circuit (13) includes two capacitors (15a, 15b) connected in series with each other; and
said coil (1) is connected in parallel with said two capacitors (15a, 15b) to form a resonance circuit, wherein in said resonance circuit, a middle point to which each of said two capacitors (15a, 15b) is connected is connected to a fixed potential, to configure a Colpitts type oscillation circuit. - The position indicator (10) according to one of the preceding claims, wherein said oscillation circuit (13) includes a capacitor (23) which is connected to said coil (21), to form a resonance circuit; and
a middle point (22) of said coil (21) is connected to a fixed potential, to configure a Hartley type oscillation circuit. - A position detecting device (30), comprising:a position indicator (10) according to one of the preceding claims including said coil (1, 21) for radiating a magnetic field for carrying out position indication; anda tablet (31) including an input surface for receiving position indication made by said position indicator (10), said tablet (31) being configured to detect a position indicated by said position indicator (10) on said input surface in accordance with a magnetic field emitted from said position indicator (10).
- A position detecting device (30), comprising:a position indicator (10) according to one of the preceding claims including an oscillation circuit (13) that includes said coil (1, 21) configured to emit a position indicating signal representing an indicated position; anda tablet (31) including an input surface for receiving position indication made by said position indicator (10), said tablet (31) being configured to detect a position indicated by said position indicator (10) on said input surface in accordance with a position indicating signal emitted from said position indicator (10);
- The position detecting device (30) of claim 6 or 7, wherein the tablet (31) comprises a sensor coil made of a transparent conductive material disposed on a liquid crystal panel.
- A coil winding method of manufacturing a coil for an oscillation circuit of a position detecting device, comprising the steps of:designating a portion of a conductive wire from a predetermined point thereof (4) to one end portion thereof (5a) as a first conductive wire (3a), and designating another portion of the conductive wire from the predetermined point thereof to the other end portion thereof (5b) as a second conductive wire (3b);fixing said predetermined point of the conductive wire (4) to a magnetic material (2) having a rod-like shape;winding said first conductive wire (3a) around a circumference of said magnetic material (2) by a half turn in a first rotational direction, and winding said second conductive wire (3b) around said circumference of said magnetic material (2) by a half turn in a second opposite rotational direction to thereby place at a crossing point of said wires said second conductive wire (3b) over said first conductive wire (3a); andalternately winding said first conductive wire (3a) and said second conductive wire (3b) in said respective rotational directions around said circumference of said magnetic material (2) to repetitively wind said first conductive wire (3a) and said second conductive wire (3b).
- The coil winding method according to claim 9, wherein the step of alternately winding said first and second conductive wires (3a, 3b) comprises alternately winding said first conductive wire (3a) and said second conductive wire (3b) along the last-wound conductive wire per every turn.
- The coil winding method according to claim 9, wherein the step of alternately winding said first and second conductive wires (3a, 3b) comprises alternately winding said first conductive wire (3a) and said second conductive wire (3b) per every two or more turns.
- The coil winding method according to one of the claims 9 to 11, further comprising the step of, after repetitively winding said first and second conductive wires (3a, 3b) by a predetermined number of turns, taking both end portions of the conductive wire as both ends of the coil.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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JP2009262296A JP5275959B2 (en) | 2009-11-17 | 2009-11-17 | Coil, position indicator, position detection device, and coil winding method |
Publications (3)
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EP2323140A2 EP2323140A2 (en) | 2011-05-18 |
EP2323140A3 EP2323140A3 (en) | 2014-03-19 |
EP2323140B1 true EP2323140B1 (en) | 2018-05-30 |
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EP10191525.4A Not-in-force EP2323140B1 (en) | 2009-11-17 | 2010-11-17 | Position indicator, position detecting device and coil winding method |
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US (1) | US8847928B2 (en) |
EP (1) | EP2323140B1 (en) |
JP (1) | JP5275959B2 (en) |
CN (1) | CN102063237A (en) |
TW (1) | TWI476794B (en) |
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JP5430339B2 (en) * | 2009-10-19 | 2014-02-26 | 株式会社ワコム | Position detecting device and position indicator |
CN103019498A (en) * | 2011-09-20 | 2013-04-03 | 友碁科技股份有限公司 | Electromagnetic induction type input equipment |
JP5888733B2 (en) * | 2012-03-09 | 2016-03-22 | 株式会社ワコム | Electromagnetic induction coordinate input device sensor |
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JP5954115B2 (en) * | 2012-10-26 | 2016-07-20 | Tdk株式会社 | Coil device for electronic pen |
CN103823579B (en) * | 2012-11-15 | 2017-01-04 | Tdk株式会社 | electronic pen coil device |
JP6032016B2 (en) * | 2013-01-10 | 2016-11-24 | Tdk株式会社 | Coil device for electronic pen |
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JP6750488B2 (en) * | 2016-12-02 | 2020-09-02 | スミダコーポレーション株式会社 | Antenna device and manufacturing method thereof |
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KR102360971B1 (en) * | 2019-02-14 | 2022-02-09 | 주식회사 하이딥 | A stylus pen |
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TWI476794B (en) | 2015-03-11 |
TW201142883A (en) | 2011-12-01 |
EP2323140A2 (en) | 2011-05-18 |
JP5275959B2 (en) | 2013-08-28 |
US20110115753A1 (en) | 2011-05-19 |
EP2323140A3 (en) | 2014-03-19 |
CN102063237A (en) | 2011-05-18 |
US8847928B2 (en) | 2014-09-30 |
JP2011107985A (en) | 2011-06-02 |
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